Safe Haskell | None |
---|---|
Language | Haskell2010 |
Synopsis
- newtype Fix m a where
- threadFixViaClass :: Monad m => (RepresentationalT t, forall b. MonadFix b => MonadFix (t b)) => (forall x. Fix m x -> m x) -> Fix (t m) a -> t m a
Effects
newtype Fix m a where Source #
An effect corresponding to the MonadFix
type class.
Effly'
s MonadFix
instance is based
on this effect; by having access to Fix
, you're able to
use recursive do notation inside of effect handlers.
Fix is typically used as a primitive effect.
If you define a Carrier
that relies on a novel
non-trivial monad transformer t
, then you need to make
a
instance (if possible).
ThreadsEff
t Fix
threadFixViaClass
can help you with that.
The following threading constraints accept Fix
:
Instances
ThreadsEff (ExceptT e) Fix Source # | |
Monoid s => ThreadsEff (WriterT s) Fix Source # | |
ThreadsEff (StateT s) Fix Source # | |
ThreadsEff (ReaderT i) Fix Source # | |
ThreadsEff (StateT s) Fix Source # | |
Monoid s => ThreadsEff (WriterT s) Fix Source # | |
ThreadsEff (WriterT s) Fix Source # | |
(Reifies s (ReifiedEffAlgebra Fix m), Monad m) => MonadFix (ViaAlg s Fix m) Source # | |
Threading utilities
threadFixViaClass :: Monad m => (RepresentationalT t, forall b. MonadFix b => MonadFix (t b)) => (forall x. Fix m x -> m x) -> Fix (t m) a -> t m a Source #
A valid definition of threadEff
for a
instance,
given that ThreadsEff
t Fix
t
lifts MonadFix
.